View clinical trials related to Stroke.
Filter by:Along with the current clinical trial, the efficacy and safety of 180 mg loading dose of ticagrelor administered within 24 hours of first-ever large-vessel ischemic stroke compared to 300 mg clopidogrel were assessed through NIHSS, mRS, and possible adverse effects.
In acute ischemic stroke due to tandem occlusion, the emergent stenting has recently become an endovascular treatment option combining with mechanical thrombectomy to achieve recanalization. However, the data on the beneficial endovascular management of tandem occlusion in two circulations is still limited. The purpose of our study was to compare the improvement of clinical outcome between two circulations after emergent stenting at 3 months.
Post-stroke participants will wear wearable sensors for one week at 1-week prior to discharge from inpatient rehabilitation, 3- and 7- weeks post-discharge and 3-months post-discharge. All participants will wear sensors but only participants in the intervention group will receive sensor-informed activity feedback (e.g., activity, sleep and sedentary behaviour) and feedback informed goal setting sessions with a physiotherapist. The feedback forms will be co-created with physiotherapists working at GF Strong. Focus group(s) will be conducted to collect the opinions of clinicians with respect to measures to be included in the feedback form. At 3-months post-discharge, participants will be interviewed regarding their experience with the sensors. This study will explore the feasibility and initial benefits of using wearable sensors paired with goal setting to assist in the maintenance of activity levels during a difficult period for stroke survivors (transitioning home from rehab).
A community-academic partnership composed of a State University of New York (SUNY) Downstate Health Sciences University inter-disciplinary team of scientists (representing public health, medical informatics, vascular neurology/stroke center) and the Digital Equity Community Advisory Board (DECA) will guide our research. This is an NIH R21 pilot study. Our Specific Aims are designed to inform the sample design and research priorities for a larger NIH R01 experimental study and to serve as a platform for similar studies with other health conditions. We propose a mixed-methods study design with the following aims: 1. Assess and build setting, community, and user fit of DESA, leveraging qualitative methods and simulation telehealth encounters between the patient and neurologist. 2. Conduct a 9-month pilot randomized control trial (RCT) of DESA in a Central Brooklyn stroke population to examine the feasibility and preliminary efficacy. We will randomize 50 adults to DESA and 30 to usual care. The primary outcome will be BP control. Secondary outcomes include the number of BP measurements and medication compliance. Our primary hypothesis is that patients randomized to the DESA will significantly reduce systolic blood pressure at 9 months. 3. Examine barriers and facilitators to the adoption and integration of DESA into routine stroke care utilizing key informant interviews and user satisfaction surveys with neurologists and intervention participants.
To assess the safety and tolerability of single and multiple doses of MTR-601 in normal healthy volunteers under fed and fasted conditions. To evaluate the plasma and urine pharmacokinetics (PK) of MTR-601. To evaluate the pharmacodynamic (PD) effects of MTR-601 on muscle strength and muscle accumulation of MTR-601 by muscle biopsy and other potential mechanistic, predictive and PD markers of MTR-601.
The goal of the present clinical trial is to explore whether an innovative technology-based approach can help individuals who have had a stroke and can no longer move their hands with ease. Our approach consists of a combination of two technologies: Transcranial Magnetic Stimulation (TMS) and a Brain-Computer Interface (BCI). The former entails the application of magnetic fields over the head to stimulate the brain preparing it for a better ability to produce movement. The latter consists of measuring brain activity to personalize a type of computer-based training that is designed to increase communication between the brain and the muscles.
Homonymous visual field defects (HVFDs) following acquired brain lesions affect independent living by hampering several activities of everyday life. Available treatments are intensive and week- or month-long. Transcranial Direct current stimulation (tDCS), a plasticity-modulating non-invasive technique, could be combined with behavioral trainings to boost their efficacy or reduce treatment duration. Some promising attempts have been made pairing occipital tDCS with visual restitution training, however less is knows about which area/network should be best stimulated in association with compensatory approaches, aimed at improving exploratory abilities, such as multisensory trainings. In the present double-blind, sham-controlled study, we assess the efficacy of a multisensory training combined with tDCS. 3 groups of participants with chronic HVFDs underwent a 10-day (1.5 hrs/day) compensatory audio-visual training combined with either real anodal tDCS applied to the ipsilesional occipital tDCS (Group 1), or the ipsilesional posterior parietal cortex (Group 2), or a sham, placebo, tDCS (Group 3). The training require the participants to orient their gaze training spatio-temporally congruent, cross-modal, audio-visual stimuli (starting from a central fixation) and press a button as quick as possible upon the detection of the visual stimulus. All stimuli are presented on 2mx2m panel embedded with 48 LEDs and loudspeakers (Bolognini et al., 2010, Brain Research) All participants underwent a neuropsychological assessment of visuospatial functions prior to the beginning of the training (t0), at the end of the training (t1), and at 1-month (t2) and 4-month follow-up (t3). The assessment includes: a visual detection task, three visual search tasks (EF, Triangles, and Numbers; Bolognini et al., 2005, Brain), and a questionnaire about functional impact of the HVFDs in the activities of daily living.
The goal of this observational study is to learn about cognitive outcomes in stroke patients. The main question it aims to answer are: 1. Is blood-brain barrier permeability compromised for years after stroke, 2. Is a blood biomarker of imbalanced angiogenesis dysregulated in chronic stroke and 3. Are there biomarkers that separately or together predicts cognitive decline after stroke, and are other MRI, blood, and clinical characteristics that are associated. Participants will undergo cognitive testing and MRIs two years apart. Researchers will compare cognitive outcomes in non-stroke patients who have cardiovascular risk factors to understand the effects of stroke on these outcomes.
Background: Following a stroke, as part of neurorehabilitation, the intensity of effort is important to promote neural changes and stimulate motor recovery. There are few studies concerning the cortical activity involved at different levels of intensity during upper limb motor training. Objective: To investigate cortex activation while walking an exoskeleton with 4 levels of guidance force in healthy controls.
The aim of this trial is to investigate whether head elevation position after endovascular treatment can improve the 90-day functional outcome of acute large vessel occlusion in the anterior circulation.